A semiconductor device and a method of forming a structure in a target substrate for manufacturing a semiconductor device is provided. The method comprises the step of providing a masking layer on the target substrate and providing a stair-like profile in the masking layer such that the height of a step of the stair-like profile is smaller than the thickness of the masking layer. Further, the method comprises the step of performing anisotropic etching of the masking layer and the target substrate simultaneously such that a structure having a stair-like profile is formed in the target substrate. The semiconductor device comprises a target substrate including a first region made of a first type of semiconductor material and a second region made of a second type of semiconductor material.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A bipolar junction transistor, comprising: a target substrate including a base region made of a first type of semiconductor material, the target substrate including a collector region and an emitter region made of a second type of semiconductor material different from the first type of semiconductor material, the base region and the emitter region being adjacent and defining an active region of the bipolar junction transistor; and a structure having a stair profile including a plurality of steps at a junction between the base region and the emitter region.
2. The bipolar junction transistor of claim 1 , wherein the base region includes a p-doped material and the emitter region includes an n-doped material, or vice versa.
3. The bipolar junction transistor of claim 1 , wherein a step from the plurality of steps of the stair profile defining a base of the structure includes a part of the base region and a part of the emitter region.
4. The bipolar junction transistor of claim 1 , wherein the target substrate includes at least one of silicon carbide (SiC), silicon (Si), gallium arsenide (GaAs), indium phosphide (InP) and gallium nitride (GaN).
5. The bipolar junction transistor of claim 1 , wherein a height of a step from the plurality of steps of the stair profile is less than 200 nm.
6. The bipolar junction transistor of claim 1 , wherein a number of steps included in the plurality of steps is greater than 4.
7. A bipolar junction transistor, comprising: a target substrate including a base region made of a first type of semiconductor material, the target substrate including a collector region and an emitter region made of a second type of semiconductor material different from the first type of semiconductor material, the base region and the emitter region being adjacent and defining an active region of the bipolar junction transistor; and a structure having a stair profile at a junction between the base region and the emitter region, the stair profile having a first step and a second step, the first step defining a base of the structure, the first step including a part of the base region and a part of the emitter region.
8. The bipolar junction transistor of claim 7 , wherein the structure includes a side wall having a plurality of steps including at least the first step and the second step.
9. The bipolar junction transistor of claim 7 , wherein the structure includes more than one side wall having a plurality of steps.
10. The bipolar junction transistor of claim 7 , wherein the step of the stair profile has a height less than 100 nm.
11. The bipolar junction transistor of claim 7 , wherein the first step has a size different than a size of the second step.
12. The bipolar junction transistor of claim 7 , wherein first step of the stair profile has a width greater than a width of the second step of the stair profile, the second step of the stair profile is closer to a top of the structure than the first step of the stair profile.
13. The bipolar junction transistor of claim 7 , wherein first step of the stair profile has a height greater than a height of the second step of the stair profile, the second step of the stair profile is closer to a top of the structure than the first step of the stair profile.
14. The bipolar junction transistor of claim 7 , wherein the bipolar junction transistor is a vertical bipolar junction transistor.
15. The bipolar junction transistor of claim 7 , wherein the structure has a stair profile including more than two steps.
16. A bipolar junction transistor, comprising: a base region made of a first type of semiconductor material; a collector region made of a second type of semiconductor material different from the first type of semiconductor material; an emitter region adjacent to the base region and made of the second type of semiconductor material, the emitter region and the base region defining at least a portion of an active region of the bipolar junction transistor; and a structure having a stair profile including a plurality of steps at a junction between the base region and the emitter region.
17. The bipolar junction transistor of claim 16 , wherein a step from the plurality of steps of the stair profile includes a part of the base region and a part of the emitter region.
18. The bipolar junction transistor of claim 16 , wherein the bipolar junction transistor includes at least one of silicon carbide (SiC), silicon (Si), gallium arsenide (GaAs), indium phosphide (InP) and gallium nitride (GaN).
19. The bipolar junction transistor of claim 16 , wherein a height of a step from the plurality of steps of the stair profile is less than 200 nm.
20. The bipolar junction transistor of claim 16 , wherein the bipolar junction transistor is a vertical bipolar junction transistor.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
September 27, 2012
June 10, 2014
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